Route examining system

What is claimed is: 1. A system comprising: a power source coupled to a conditioning circuit, a first conductive body, and a third conductive body, wherein the first conductive body is configured to inject a first electrical examination signal into a first conductive rail of a route from onboard a vehicle system traveling along the route and wherein the third conductive body is configured to inject a second electrical examination signal into a second conductive rail of the route; a second conductive body configured to detect a first electrical characteristic of the route based on the first electrical examination signal as a first voltage of the first electrical examination signal measured along the first conductive rail, and wherein the second conductive body is configured to measure a second voltage of the second electrical examination signal along the first conductive rail by the second conductive body as a second electrical characteristic of the route; a fourth conductive body configured to measure a third voltage of the first electrical examination signal along the second conductive rail as a third electrical characteristic of the route, wherein the fourth conductive body also is configured to measure a fourth voltage of the second electrical examination signal along the second conductive rail as a fourth electrical characteristic of the route; and one or more processors configured to detect a break in conductivity of the route responsive to the first electrical characteristic decreasing by more than a designated drop threshold for a time period within a designated drop time period; wherein each of the first, second and the third conductive body includes a conductive shoe or a conductive brush that slides along a surface of a track or an outer circumference of a wheel or an inductive circuit. 2. The system of claim 1 , wherein the break that is detected by the one or more processors includes a break in a conductive rail of the route or an insulated joint in the route. 3. The system of claim 1 , wherein the one or more processors are configured to detect the break by detecting an opening in a circuit formed by wheels and axles of the vehicle system and segments of conductive rails of the route extending between the wheels of the vehicle system. 4. The system of claim 1 , wherein the first conductive body is configured to inject the first electrical examination signal into the route by injecting the first electrical examination signal having one or more of a first frequency or a first unique identifier into the route, and the third conductive body is configured to inject the second electrical examination signal into the route by injecting the second electrical examination signal having one or more of a different, second frequency or a different, second unique identifier into the route. 5. The system of claim 1 , wherein the one or more processors are configured to determine feature vectors representative of different values of each of the first, second, third, and fourth electrical characteristics, and to compare the feature vectors to one or more patterns of feature vectors associated with different conditions of the route, at least one of the patterns of feature vectors associated with the break in the conductivity of the route, the one or more processors are configured to detect the break in the conductivity of the route responsive to the first electrical characteristic decreasing by more than the designated drop threshold for the time period within the designated drop time period and responsive to the feature vectors more closely matching the at least one pattern of feature vectors associated with the break in the conductivity of the route. 6. The system of claim 5 , wherein the one or more processors are configured to determine the feature vectors for each of the first, second, third, and fourth electrical characteristics as including: a first statistical measure of values of the respective first, second, third, or fourth electrical characteristic prior to the respective first, second, third, or fourth electrical characteristic decreasing by more than the designated drop threshold for the time period that is within the designated drop time period, a second statistical measure of values of the respective first, second, third, or fourth electrical characteristic after the respective first, second, third, or fourth electrical characteristic decreases by more than the designated drop threshold and before the respective first, second, third, or fourth electrical characteristic increases by at least the designated drop threshold, and a third statistical measure of values of the respective first, second, third, or fourth electrical characteristic after the respective first, second, third, or fourth electrical characteristic increases by at least the designated drop threshold. 7. A system comprising: a first application unit configured to be disposed onboard a vehicle traveling along a route having plural conductive rails, the first application unit configured to inject, from a power source coupled to a conditioning circuit, a first electrical examination signal having one or more of a first frequency or a first unique identifier into a first rail of the plural conductive rails; a second application unit configured to be disposed onboard the vehicle and to inject, from the power source coupled to the conditioning circuit, a second electrical examination signal having one or more of a different, second frequency or a different, second unique identifier into a second rail of the plural conductive rails; a first detection unit configured to be disposed onboard the vehicle and to measure a first electrical characteristic of the first rail based on the first electrical examination signal and to measure a second electrical characteristic of the first rail based on the second electrical examination signal; a second detection unit configured to be disposed onboard the vehicle and to measure a third electrical characteristic of the second rail based on the first electrical examination signal and to measure a fourth electrical characteristic of the second rail based on the second electrical examination signal; and one or more processors configured to detect a break in conductivity of one or more of the first rail or the second rail of the route responsive to one or more of the first electrical characteristic, the second electrical characteristic, the third electrical characteristic, or the fourth electrical characteristic decreasing by more than a designated drop threshold for a time period that is within a designated drop time period; wherein each of the first and the second application unit includes a conductive shoe or a conductive brush that slides along a surface of a track or an outer circumference of a wheel or an inductive circuit. 8. The system of claim 7 , wherein the one or more processors are configured to detect the break by detecting an opening in a circuit formed by wheels and axles of the vehicle system and segments of the first and second rails of the route extending between the wheels of the vehicle system. 9. The system of claim 7 , wherein the one or more processors are configured to determine feature vectors representative of different values of each of the first, second, third, and fourth electrical characteristics and to compare the feature vectors to one or more patterns of feature vectors associated with different conditions of the route, at least one of the patterns of feature vectors associated with the break in the conductivity of the route, wherein the one or more processors are configured to detect the break in the conductivity of one or more of the first rail or the second rail responsive to the first electrical charact